Curvature- and fluid-stress-driven tissue growth in a tissue-engineering scaffold pore

Curvature- and fluid-stress-driven tissue growth in a tissue-engineering scaffold pore

Cell proliferation within a fluid-filled porous tissue-engineering scaffold depends on a sensitive choice of pore geometry and flow rates: regions of high curvature encourage cell proliferation, while a critical flow rate is required to promote growth for certain cell types. When the flow rate is to...

Szczegółowa specyfikacja

Opis bibliograficzny
Główni autorzy:	Sanaei, P, Cummings, L, Waters, S, Griffiths, I
Format:	Journal article
Wydane:	Springer 2018

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